/**
 * @license Highcharts JS v6.1.2 (2018-08-31)
 * Module for adding patterns and images as point fills.
 *
 * (c) 2010-2018 Highsoft AS
 * Author: Torstein Hønsi, Øystein Moseng
 *
 * License: www.highcharts.com/license
 */
'use strict';
(function (factory) {
	if (typeof module === 'object' && module.exports) {
		module.exports = factory;
	} else if (typeof define === 'function' && define.amd) {
		define(function () {
			return factory;
		});
	} else {
		factory(Highcharts);
	}
}(function (Highcharts) {
	(function (H) {
		/**
		 * Module for using patterns or images as point fills.
		 *
		 * (c) 2010-2018 Highsoft AS
		 * Author: Torstein Hønsi, Øystein Moseng
		 *
		 * License: www.highcharts.com/license
		 */

		var wrap = H.wrap,
		    each = H.each,
		    merge = H.merge,
		    pick = H.pick;


		/**
		 * Utility function to compute a hash value from an object. Modified Java
		 * String.hashCode implementation in JS. Use the preSeed parameter to add an
		 * additional seeding step.
		 *
		 * @param {Object} obj The javascript object to compute the hash from.
		 * @param {Bool} [preSeed=false] Add an optional preSeed stage.
		 *
		 * @return {String} The computed hash.
		 */
		function hashFromObject(obj, preSeed) {
		    var str = JSON.stringify(obj),
		        strLen = str.length || 0,
		        hash = 0,
		        i = 0,
		        char,
		        seedStep;

		    if (preSeed) {
		        seedStep = Math.max(Math.floor(strLen / 500), 1);
		        for (var a = 0; a < strLen; a += seedStep) {
		            hash += str.charCodeAt(a);
		        }
		        hash = hash & hash;
		    }

		    for (; i < strLen; ++i) {
		        char = str.charCodeAt(i);
		        hash = ((hash << 5) - hash) + char;
		        hash = hash & hash;
		    }

		    return hash.toString(16).replace('-', '1');
		}


		/**
		 * Set dimensions on pattern from point. This function will set internal
		 * pattern._width/_height properties if width and height are not both already
		 * set. We only do this on image patterns. The _width/_height properties are
		 * set to the size of the bounding box of the point, optionally taking aspect
		 * ratio into account. If only one of width or height are supplied as options,
		 * the undefined option is calculated as above.
		 *
		 * @param {Object} pattern The pattern to set dimensions on.
		 */
		H.Point.prototype.calculatePatternDimensions = function (pattern) {
		    if (pattern.width && pattern.height) {
		        return;
		    }

		    var bBox = this.graphic && (
		            this.graphic.getBBox &&
		            this.graphic.getBBox(true) ||
		            this.graphic.element &&
		            this.graphic.element.getBBox()
		        ) || {},
		        shapeArgs = this.shapeArgs;

		    // Prefer using shapeArgs, as it is animation agnostic
		    if (shapeArgs) {
		        bBox.width = shapeArgs.width || bBox.width;
		        bBox.height = shapeArgs.height || bBox.height;
		        bBox.x = shapeArgs.x || bBox.x;
		        bBox.y = shapeArgs.y || bBox.y;
		    }

		    // For images we stretch to bounding box
		    if (pattern.image) {
		        // If we do not have a bounding box at this point, simply add a defer
		        // key and pick this up in the fillSetter handler, where the bounding
		        // box should exist.
		        if (!bBox.width || !bBox.height) {
		            pattern._width = 'defer';
		            pattern._height = 'defer';
		            return;
		        }

		        // Handle aspect ratio filling
		        if (pattern.aspectRatio) {
		            bBox.aspectRatio = bBox.width / bBox.height;
		            if (pattern.aspectRatio > bBox.aspectRatio) {
		                // Height of bBox will determine width
		                bBox.aspectWidth = bBox.height * pattern.aspectRatio;
		            } else {
		                // Width of bBox will determine height
		                bBox.aspectHeight = bBox.width / pattern.aspectRatio;
		            }
		        }

		        // We set the width/height on internal properties to differentiate
		        // between the options set by a user and by this function.
		        pattern._width = pattern.width ||
		            Math.ceil(bBox.aspectWidth || bBox.width);
		        pattern._height = pattern.height ||
		            Math.ceil(bBox.aspectHeight || bBox.height);
		    }

		    // Set x/y accordingly, centering if using aspect ratio, otherwise adjusting
		    // so bounding box corner is 0,0 of pattern.
		    if (!pattern.width) {
		        pattern._x = pattern.x || 0;
		        pattern._x += bBox.x - Math.round(
		            bBox.aspectWidth ?
		                Math.abs(bBox.aspectWidth - bBox.width) / 2 :
		                0
		            );
		    }
		    if (!pattern.height) {
		        pattern._y = pattern.y || 0;
		        pattern._y += bBox.y - Math.round(
		            bBox.aspectHeight ?
		                Math.abs(bBox.aspectHeight - bBox.height) / 2 :
		                0
		            );
		    }
		};


		/**
		 * @typedef {Object} PatternOptions
		 * @property {Object} pattern Holds a pattern definition.
		 * @property {String} pattern.image URL to an image to use as the pattern.
		 * @property {Number} pattern.width Width of the pattern. For images this is
		 *  automatically set to the width of the element bounding box if not supplied.
		 *  For non-image patterns the default is 32px. Note that automatic resizing of
		 *  image patterns to fill a bounding box dynamically is only supported for
		 *  patterns with an automatically calculated ID.
		 * @property {Number} pattern.height Analogous to pattern.width.
		 * @property {Number} pattern.aspectRatio For automatically calculated width and
		 *  height on images, it is possible to set an aspect ratio. The image will be
		 *  zoomed to fill the bounding box, maintaining the aspect ratio defined.
		 * @property {Number} pattern.x Horizontal offset of the pattern. Defaults to 0.
		 * @property {Number} pattern.y Vertical offset of the pattern. Defaults to 0.
		 * @property {Object|String} pattern.path Either an SVG path as string, or an
		 *  object. As an object, supply the path string in the `path.d` property. Other
		 *  supported properties are standard SVG attributes like `path.stroke` and
		 *  `path.fill`. If a path is supplied for the pattern, the `image` property is
		 *  ignored.
		 * @property {String} pattern.color Pattern color, used as default path stroke.
		 * @property {Number} pattern.opacity Opacity of the pattern as a float value
		 *     from 0 to 1.
		 * @property {String} pattern.id ID to assign to the pattern. This is
		 *    automatically computed if not added, and identical patterns are reused. To
		 *    refer to an existing pattern for a Highcharts color, use
		 *    `color: "url(#pattern-id)"`.
		 * @property {Object|Boolean} animation Animation options for the image pattern
		 *  loading.
		 *
		 * @example
		 * // Pattern used as a color option
		 * color: {
		 *     pattern: {
		 *            path: {
		 *                 d: 'M 3 3 L 8 3 L 8 8 Z',
		 *                fill: '#102045'
		 *            },
		 *            width: 12,
		 *            height: 12,
		 *            color: '#907000',
		 *            opacity: 0.5
		 *     }
		 * }
		 *
		 * @sample highcharts/series/pattern-fill-area/
		 *         Define a custom path pattern
		 * @sample highcharts/series/pattern-fill-pie/
		 *         Default patterns and a custom image pattern
		 * @sample maps/demo/pattern-fill-map/
		 *         Custom images on map
		 */
		/**
		 * Add a pattern to the renderer.
		 *
		 * @private
		 * @param {PatternOptions} options The pattern options.
		 *
		 * @return {Object} The added pattern. Undefined if the pattern already exists.
		 */
		H.SVGRenderer.prototype.addPattern = function (options, animation) {
		    var pattern,
		        animate = H.pick(animation, true),
		        animationOptions = H.animObject(animate),
		        path,
		        defaultSize = 32,
		        width = options.width || options._width || defaultSize,
		        height = options.height || options._height || defaultSize,
		        color = options.color || '#343434',
		        id = options.id,
		        ren = this,
		        rect = function (fill) {
		            ren.rect(0, 0, width, height)
		                .attr({
		                    fill: fill
		                })
		                .add(pattern);
		        };

		    if (!id) {
		        this.idCounter = this.idCounter || 0;
		        id = 'highcharts-pattern-' + this.idCounter;
		        ++this.idCounter;
		    }

		    // Do nothing if ID already exists
		    this.defIds = this.defIds || [];
		    if (H.inArray(id, this.defIds) > -1) {
		        return;
		    }

		    // Store ID in list to avoid duplicates
		    this.defIds.push(id);

		    // Create pattern element
		    pattern = this.createElement('pattern').attr({
		        id: id,
		        patternUnits: 'userSpaceOnUse',
		        width: width,
		        height: height,
		        x: options._x || options.x || 0,
		        y: options._y || options.y || 0
		    }).add(this.defs);

		    // Set id on the SVGRenderer object
		    pattern.id = id;

		    // Use an SVG path for the pattern
		    if (options.path) {
		        path = options.path;

		        // The background
		        if (path.fill) {
		            rect(path.fill);
		        }

		        // The pattern
		        this.createElement('path').attr({
		            'd': path.d || path,
		            'stroke': path.stroke || color,
		            'stroke-width': path.strokeWidth || 2
		        }).add(pattern);
		        pattern.color = color;

		    // Image pattern
		    } else if (options.image) {
		        if (animate) {
		            this.image(
		                options.image, 0, 0, width, height, function () {
		                    // Onload
		                    this.animate({
		                        opacity: pick(options.opacity, 1)
		                    }, animationOptions);
		                    H.removeEvent(this.element, 'load');
		                }
		            ).attr({ opacity: 0 }).add(pattern);
		        } else {
		            this.image(options.image, 0, 0, width, height).add(pattern);
		        }
		    }

		    // For non-animated patterns, set opacity now
		    if (!(options.image && animate) && options.opacity !== undefined) {
		        each(pattern.element.childNodes, function (child) {
		            child.setAttribute('opacity', options.opacity);
		        });
		    }

		    // Store for future reference
		    this.patternElements = this.patternElements || {};
		    this.patternElements[id] = pattern;

		    return pattern;
		};


		/**
		 * Make sure we have a series color
		 */
		wrap(H.Series.prototype, 'getColor', function (proceed) {
		    var oldColor = this.options.color;
		    // Temporarely remove color options to get defaults
		    if (oldColor && oldColor.pattern && !oldColor.pattern.color) {
		        delete this.options.color;
		        // Get default
		        proceed.apply(this, Array.prototype.slice.call(arguments, 1));
		        // Replace with old, but add default color
		        oldColor.pattern.color = this.color;
		        this.color = this.options.color = oldColor;
		    } else {
		        // We have a color, no need to do anything special
		        proceed.apply(this, Array.prototype.slice.call(arguments, 1));
		    }
		});


		/**
		 * Calculate pattern dimensions on points that have their own pattern.
		 */
		wrap(H.Series.prototype, 'render', function (proceed) {
		    var isResizing = this.chart.isResizing;
		    if (this.isDirtyData || isResizing || !this.chart.hasRendered) {
		        each(this.points || [], function (point) {
		            var colorOptions = point.options && point.options.color;
		            if (colorOptions && colorOptions.pattern) {
		                // For most points we want to recalculate the dimensions on
		                // render, where we have the shape args and bbox. But if we
		                // are resizing and don't have the shape args, defer it, since
		                // the bounding box is still not resized.
		                if (
		                    isResizing &&
		                    !(
		                        point.shapeArgs &&
		                        point.shapeArgs.width &&
		                        point.shapeArgs.height
		                    )
		                ) {
		                    colorOptions.pattern._width = 'defer';
		                    colorOptions.pattern._height = 'defer';
		                } else {
		                    point.calculatePatternDimensions(colorOptions.pattern);
		                }
		            }
		        });
		    }
		    return proceed.apply(this, Array.prototype.slice.call(arguments, 1));
		});


		/**
		 * Merge series color options to points
		 */
		wrap(H.Point.prototype, 'applyOptions', function (proceed) {
		    var point = proceed.apply(this, Array.prototype.slice.call(arguments, 1)),
		        colorOptions = point.options.color;

		    // Only do this if we have defined a specific color on this point. Otherwise
		    // we will end up trying to re-add the series color for each point.
		    if (colorOptions && colorOptions.pattern) {
		        // Move path definition to object, allows for merge with series path
		        // definition
		        if (typeof colorOptions.pattern.path === 'string') {
		            colorOptions.pattern.path = {
		                d: colorOptions.pattern.path
		            };
		        }
		        // Merge with series options
		        point.color = point.options.color = merge(
		            point.series.options.color, colorOptions
		        );
		    }
		    return point;
		});


		/**
		 * Add functionality to SVG renderer to handle patterns as complex colors
		 */
		H.addEvent(H.SVGRenderer, 'complexColor', function (args) {
		    var color = args.args[0],
		        prop = args.args[1],
		        element = args.args[2],
		        pattern = color.pattern,
		        value = '#343434',
		        forceHashId;

		    // Skip and call default if there is no pattern
		    if (!pattern) {
		        return true;
		    }

		    // We have a pattern.
		    if (
		        pattern.image ||
		        typeof pattern.path === 'string' ||
		        pattern.path && pattern.path.d
		    ) {
		        // Real pattern. Add it and set the color value to be a reference.

		        // Force Hash-based IDs for legend items, as they are drawn before
		        // point render, meaning they are drawn before autocalculated image
		        // width/heights. We don't want them to highjack the width/height for
		        // this ID if it is defined by users.
		        forceHashId = element.parentNode &&
		            element.parentNode.getAttribute('class');
		        forceHashId = forceHashId &&
		            forceHashId.indexOf('highcharts-legend') > -1;

		        // If we don't have a width/height yet, handle it. Try faking a point
		        // and running the algorithm again.
		        if (pattern._width === 'defer' || pattern._height === 'defer') {
		            H.Point.prototype.calculatePatternDimensions.call(
		                { graphic: { element: element } }, pattern
		            );
		        }

		        // If we don't have an explicit ID, compute a hash from the
		        // definition and use that as the ID. This ensures that points with
		        // the same pattern definition reuse existing pattern elements by
		        // default. We combine two hashes, the second with an additional
		        // preSeed algorithm, to minimize collision probability.
		        if (forceHashId || !pattern.id) {
		            // Make a copy so we don't accidentally edit options when setting ID
		            pattern = merge({}, pattern);
		            pattern.id = 'highcharts-pattern-' + hashFromObject(pattern) +
		                hashFromObject(pattern, true);
		        }

		        // Add it. This function does nothing if an element with this ID
		        // already exists.
		        this.addPattern(pattern, !this.forExport && H.pick(
		            pattern.animation,
		            this.globalAnimation,
		            { duration: 100 }
		        ));

		        value = 'url(' + this.url + '#' + pattern.id + ')';

		    } else {
		        // Not a full pattern definition, just add color
		        value = pattern.color || value;
		    }

		    // Set the fill/stroke prop on the element
		    element.setAttribute(prop, value);

		    // Allow the color to be concatenated into tooltips formatters etc.
		    color.toString = function () {
		        return value;
		    };

		    // Skip default handler
		    return false;
		});


		/**
		 * When animation is used, we have to recalculate pattern dimensions after
		 * resize, as the bounding boxes are not available until then.
		 */
		H.addEvent(H.Chart, 'endResize', function () {
		    if (
		        H.grep(this.renderer.defIds || [], function (id) {
		            return id && id.indexOf && id.indexOf('highcharts-pattern-') === 0;
		        }).length
		    ) {
		        // We have non-default patterns to fix. Find them by looping through
		        // all points.
		        each(this.series, function (series) {
		            each(series.points, function (point) {
		                var colorOptions = point.options && point.options.color;
		                if (colorOptions && colorOptions.pattern) {
		                    colorOptions.pattern._width = 'defer';
		                    colorOptions.pattern._height = 'defer';
		                }
		            });
		        });
		        // Redraw without animation
		        this.redraw(false);
		    }
		});


		/**
		 * Add a garbage collector to delete old patterns with autogenerated hashes that
		 * are no longer being referenced.
		 */
		H.addEvent(H.Chart, 'redraw', function () {
		    var usedIds = [],
		        renderer = this.renderer,
		        // Get the autocomputed patterns - these are the ones we might delete
		        patterns = H.grep(renderer.defIds || [], function (pattern) {
		            return pattern.indexOf &&
		                pattern.indexOf('highcharts-pattern-') === 0;
		        });

		    if (patterns.length) {
		        // Look through the DOM for usage of the patterns. This can be points,
		        // series, tooltips etc.
		        each(this.renderTo.querySelectorAll(
		            '[color^="url(#"], [fill^="url(#"], [stroke^="url(#"]'
		        ), function (node) {
		            var id = node.getAttribute('fill') ||
		                    node.getAttribute('color') ||
		                    node.getAttribute('stroke');
		            if (id) {
		                usedIds.push(id
		                    .substring(id.indexOf('url(#') + 5)
		                    .replace(')', '')
		                );
		            }
		        });

		        // Loop through the patterns that exist and see if they are used
		        each(patterns, function (id) {
		            if (H.inArray(id, usedIds) === -1) {
		                // Remove id from used id list
		                H.erase(renderer.defIds, id);
		                // Remove pattern element
		                if (renderer.patternElements[id]) {
		                    renderer.patternElements[id].destroy();
		                    delete renderer.patternElements[id];
		                }
		            }
		        });
		    }
		});


		/**
		 * Add the predefined patterns
		 */
		H.Chart.prototype.callbacks.push(function (chart) {
		    var colors = H.getOptions().colors;
		    each([
		        'M 0 0 L 10 10 M 9 -1 L 11 1 M -1 9 L 1 11',
		        'M 0 10 L 10 0 M -1 1 L 1 -1 M 9 11 L 11 9',
		        'M 3 0 L 3 10 M 8 0 L 8 10',
		        'M 0 3 L 10 3 M 0 8 L 10 8',
		        'M 0 3 L 5 3 L 5 0 M 5 10 L 5 7 L 10 7',
		        'M 3 3 L 8 3 L 8 8 L 3 8 Z',
		        'M 5 5 m -4 0 a 4 4 0 1 1 8 0 a 4 4 0 1 1 -8 0',
		        'M 10 3 L 5 3 L 5 0 M 5 10 L 5 7 L 0 7',
		        'M 2 5 L 5 2 L 8 5 L 5 8 Z',
		        'M 0 0 L 5 10 L 10 0'
		    ], function (pattern, i) {
		        chart.renderer.addPattern({
		            id: 'highcharts-default-pattern-' + i,
		            path: pattern,
		            color: colors[i],
		            width: 10,
		            height: 10
		        });
		    });
		});

	}(Highcharts));
	return (function () {


	}());
}));
